libgomp/testsuite/libgomp.fortran/simd7.f90 - gcc - Git at Google

 ! { dg-do run }
 ! { dg-additional-options "-msse2" { target sse2_runtime } }
 ! { dg-additional-options "-mavx" { target avx_runtime } }

 subroutine foo (d, e, f, g, m, n)
   integer :: i, j, b(2:9), c(3:n), d(:), e(2:n), f(2:,3:), n
   integer, allocatable :: g(:), h(:), k, m
   logical :: l
   l = .false.
   allocate (h(2:7))
   i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
 !$omp simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5)linear(g:6) &
 !$omp & linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l)
   do i = 0, 63
     l = l .or. .not.allocated (g) .or. .not.allocated (h)
     l = l .or. .not.allocated (k) .or. .not.allocated (m)
     l = l .or. any (b /= 7 + i) .or. any (c /= 8 + 2 * i)
     l = l .or. any (d /= 9 + 3 * i) .or. any (e /= 10 + 4 * i)
     l = l .or. any (f /= 11 + 5 * i) .or. any (g /= 12 + 6 * i)
     l = l .or. any (h /= 13 + 7 * i) .or. (k /= 14 + 8 * i)
     l = l .or. (m /= 15 + 9 * i)
     l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
     l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
     l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
     l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
     l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
     l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
     l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
     l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
     b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
     h = h + 7; k = k + 8; m = m + 9
   end do
   if (l .or. i /= 64) stop 1
   if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 2
   if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 3
   if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 4
   if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 5
   if (m /= 15 + 9 * 64) stop 6
   if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 7
   if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 8
   if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 9
   if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 10
   if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 11
   if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 12
   if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 13
   if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 14
   i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
 !$omp simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5)linear(g:6) &
 !$omp & linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l) collapse(2)
   do i = 0, 7
     do j = 0, 7
       l = l .or. .not.allocated (g) .or. .not.allocated (h)
       l = l .or. .not.allocated (k) .or. .not.allocated (m)
       l = l .or. any (b /= 7 + (8 * i + j)) .or. any (c /= 8 + 2 * (8 * i + j))
       l = l .or. any (d /= 9 + 3 * (8 * i + j)) .or. any (e /= 10 + 4 * (8 * i + j))
       l = l .or. any (f /= 11 + 5 * (8 * i + j)) .or. any (g /= 12 + 6 * (8 * i + j))
       l = l .or. any (h /= 13 + 7 * (8 * i + j)) .or. (k /= 14 + 8 * (8 * i + j))
       l = l .or. (m /= 15 + 9 * (8 * i + j))
       l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
       l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
       l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
       l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
       l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
       l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
       l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
       l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
       b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
       h = h + 7; k = k + 8; m = m + 9
     end do
   end do
   if (l .or. i /= 8 .or. j /= 8) stop 15
   if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 16
   if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 17
   if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 18
   if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 19
   if (m /= 15 + 9 * 64) stop 20
   if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 21
   if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 22
   if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 23
   if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 24
   if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 25
   if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 26
   if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 27
   if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 28
   i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
 !$omp parallel do simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5) &
 !$omp & linear(g:6)linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l)
   do i = 0, 63
     l = l .or. .not.allocated (g) .or. .not.allocated (h)
     l = l .or. .not.allocated (k) .or. .not.allocated (m)
     l = l .or. any (b /= 7 + i) .or. any (c /= 8 + 2 * i)
     l = l .or. any (d /= 9 + 3 * i) .or. any (e /= 10 + 4 * i)
     l = l .or. any (f /= 11 + 5 * i) .or. any (g /= 12 + 6 * i)
     l = l .or. any (h /= 13 + 7 * i) .or. (k /= 14 + 8 * i)
     l = l .or. (m /= 15 + 9 * i)
     l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
     l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
     l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
     l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
     l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
     l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
     l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
     l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
     b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
     h = h + 7; k = k + 8; m = m + 9
   end do
   if (l .or. i /= 64) stop 29
   if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 30
   if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 31
   if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 32
   if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 33
   if (m /= 15 + 9 * 64) stop 34
   if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 35
   if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 36
   if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 37
   if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 38
   if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 39
   if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 40
   if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 41
   if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 42
   i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
 !$omp parallel do simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5) &
 !$omp & linear(g:6)linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l) collapse(2)
   do i = 0, 7
     do j = 0, 7
       l = l .or. .not.allocated (g) .or. .not.allocated (h)
       l = l .or. .not.allocated (k) .or. .not.allocated (m)
       l = l .or. any (b /= 7 + (8 * i + j)) .or. any (c /= 8 + 2 * (8 * i + j))
       l = l .or. any (d /= 9 + 3 * (8 * i + j)) .or. any (e /= 10 + 4 * (8 * i + j))
       l = l .or. any (f /= 11 + 5 * (8 * i + j)) .or. any (g /= 12 + 6 * (8 * i + j))
       l = l .or. any (h /= 13 + 7 * (8 * i + j)) .or. (k /= 14 + 8 * (8 * i + j))
       l = l .or. (m /= 15 + 9 * (8 * i + j))
       l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
       l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
       l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
       l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
       l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
       l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
       l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
       l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
       b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
       h = h + 7; k = k + 8; m = m + 9
     end do
   end do
   if (l .or. i /= 8 .or. j /= 8) stop 43
   if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 44
   if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 45
   if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 46
   if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 47
   if (m /= 15 + 9 * 64) stop 48
   if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 49
   if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 50
   if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 51
   if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 52
   if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 53
   if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 54
   if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 55
   if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 56
 end subroutine

   interface
     subroutine foo (d, e, f, g, m, n)
       integer :: d(:), e(2:n), f(2:,3:), n
       integer, allocatable :: g(:), m
     end subroutine
   end interface
   integer, parameter :: n = 8
   integer :: d(2:18), e(3:n+1), f(5:6,7:9)
   integer, allocatable :: g(:), m
   allocate (g(7:10))
   call foo (d, e, f, g, m, n)
 end
	! { dg-do run }
	! { dg-additional-options "-msse2" { target sse2_runtime } }
	! { dg-additional-options "-mavx" { target avx_runtime } }

	subroutine foo (d, e, f, g, m, n)
	integer :: i, j, b(2:9), c(3:n), d(:), e(2:n), f(2:,3:), n
	integer, allocatable :: g(:), h(:), k, m
	logical :: l
	l = .false.
	allocate (h(2:7))
	i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
	!$omp simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5)linear(g:6) &
	!$omp & linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l)
	do i = 0, 63
	l = l .or. .not.allocated (g) .or. .not.allocated (h)
	l = l .or. .not.allocated (k) .or. .not.allocated (m)
	l = l .or. any (b /= 7 + i) .or. any (c /= 8 + 2 * i)
	l = l .or. any (d /= 9 + 3 * i) .or. any (e /= 10 + 4 * i)
	l = l .or. any (f /= 11 + 5 * i) .or. any (g /= 12 + 6 * i)
	l = l .or. any (h /= 13 + 7 * i) .or. (k /= 14 + 8 * i)
	l = l .or. (m /= 15 + 9 * i)
	l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
	l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
	l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
	l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
	l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
	l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
	l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
	l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
	b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
	h = h + 7; k = k + 8; m = m + 9
	end do
	if (l .or. i /= 64) stop 1
	if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 2
	if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 3
	if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 4
	if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 5
	if (m /= 15 + 9 * 64) stop 6
	if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 7
	if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 8
	if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 9
	if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 10
	if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 11
	if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 12
	if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 13
	if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 14
	i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
	!$omp simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5)linear(g:6) &
	!$omp & linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l) collapse(2)
	do i = 0, 7
	do j = 0, 7
	l = l .or. .not.allocated (g) .or. .not.allocated (h)
	l = l .or. .not.allocated (k) .or. .not.allocated (m)
	l = l .or. any (b /= 7 + (8 * i + j)) .or. any (c /= 8 + 2 * (8 * i + j))
	l = l .or. any (d /= 9 + 3 * (8 * i + j)) .or. any (e /= 10 + 4 * (8 * i + j))
	l = l .or. any (f /= 11 + 5 * (8 * i + j)) .or. any (g /= 12 + 6 * (8 * i + j))
	l = l .or. any (h /= 13 + 7 * (8 * i + j)) .or. (k /= 14 + 8 * (8 * i + j))
	l = l .or. (m /= 15 + 9 * (8 * i + j))
	l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
	l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
	l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
	l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
	l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
	l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
	l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
	l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
	b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
	h = h + 7; k = k + 8; m = m + 9
	end do
	end do
	if (l .or. i /= 8 .or. j /= 8) stop 15
	if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 16
	if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 17
	if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 18
	if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 19
	if (m /= 15 + 9 * 64) stop 20
	if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 21
	if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 22
	if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 23
	if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 24
	if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 25
	if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 26
	if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 27
	if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 28
	i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
	!$omp parallel do simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5) &
	!$omp & linear(g:6)linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l)
	do i = 0, 63
	l = l .or. .not.allocated (g) .or. .not.allocated (h)
	l = l .or. .not.allocated (k) .or. .not.allocated (m)
	l = l .or. any (b /= 7 + i) .or. any (c /= 8 + 2 * i)
	l = l .or. any (d /= 9 + 3 * i) .or. any (e /= 10 + 4 * i)
	l = l .or. any (f /= 11 + 5 * i) .or. any (g /= 12 + 6 * i)
	l = l .or. any (h /= 13 + 7 * i) .or. (k /= 14 + 8 * i)
	l = l .or. (m /= 15 + 9 * i)
	l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
	l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
	l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
	l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
	l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
	l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
	l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
	l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
	b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
	h = h + 7; k = k + 8; m = m + 9
	end do
	if (l .or. i /= 64) stop 29
	if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 30
	if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 31
	if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 32
	if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 33
	if (m /= 15 + 9 * 64) stop 34
	if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 35
	if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 36
	if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 37
	if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 38
	if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 39
	if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 40
	if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 41
	if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 42
	i = 4; j = 4; b = 7; c = 8; d = 9; e = 10; f = 11; g = 12; h = 13; k = 14; m = 15
	!$omp parallel do simd linear(b)linear(c:2)linear(d:3)linear(e:4)linear(f:5) &
	!$omp & linear(g:6)linear(h:7)linear(k:8)linear(m:9) reduction(.or.:l) collapse(2)
	do i = 0, 7
	do j = 0, 7
	l = l .or. .not.allocated (g) .or. .not.allocated (h)
	l = l .or. .not.allocated (k) .or. .not.allocated (m)
	l = l .or. any (b /= 7 + (8 * i + j)) .or. any (c /= 8 + 2 * (8 * i + j))
	l = l .or. any (d /= 9 + 3 * (8 * i + j)) .or. any (e /= 10 + 4 * (8 * i + j))
	l = l .or. any (f /= 11 + 5 * (8 * i + j)) .or. any (g /= 12 + 6 * (8 * i + j))
	l = l .or. any (h /= 13 + 7 * (8 * i + j)) .or. (k /= 14 + 8 * (8 * i + j))
	l = l .or. (m /= 15 + 9 * (8 * i + j))
	l = l .or. (lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)
	l = l .or. (lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)
	l = l .or. (lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)
	l = l .or. (lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)
	l = l .or. (lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)
	l = l .or. (lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)
	l = l .or. (lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)
	l = l .or. (lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)
	b = b + 1; c = c + 2; d = d + 3; e = e + 4; f = f + 5; g = g + 6
	h = h + 7; k = k + 8; m = m + 9
	end do
	end do
	if (l .or. i /= 8 .or. j /= 8) stop 43
	if (any (b /= 7 + 64) .or. any (c /= 8 + 2 * 64)) stop 44
	if (any (d /= 9 + 3 * 64) .or. any (e /= 10 + 4 * 64)) stop 45
	if (any (f /= 11 + 5 * 64) .or. any (g /= 12 + 6 * 64)) stop 46
	if (any (h /= 13 + 7 * 64) .or. (k /= 14 + 8 * 64)) stop 47
	if (m /= 15 + 9 * 64) stop 48
	if ((lbound (b, 1) /= 2) .or. (ubound (b, 1) /= 9)) stop 49
	if ((lbound (c, 1) /= 3) .or. (ubound (c, 1) /= n)) stop 50
	if ((lbound (d, 1) /= 1) .or. (ubound (d, 1) /= 17)) stop 51
	if ((lbound (e, 1) /= 2) .or. (ubound (e, 1) /= n)) stop 52
	if ((lbound (f, 1) /= 2) .or. (ubound (f, 1) /= 3)) stop 53
	if ((lbound (f, 2) /= 3) .or. (ubound (f, 2) /= 5)) stop 54
	if ((lbound (g, 1) /= 7) .or. (ubound (g, 1) /= 10)) stop 55
	if ((lbound (h, 1) /= 2) .or. (ubound (h, 1) /= 7)) stop 56
	end subroutine

	interface
	subroutine foo (d, e, f, g, m, n)
	integer :: d(:), e(2:n), f(2:,3:), n
	integer, allocatable :: g(:), m
	end subroutine
	end interface
	integer, parameter :: n = 8
	integer :: d(2:18), e(3:n+1), f(5:6,7:9)
	integer, allocatable :: g(:), m
	allocate (g(7:10))
	call foo (d, e, f, g, m, n)
	end